DE4314561C2 - Spiral ceiling for an endless conveyor belt - Google Patents

Description

The present invention relates to a spiral blanket for an endless conveyor belt according to the generic term of the patent claim 1.

Spiral blankets are used in conveyor belts that over mainly used as an endless belt in transport towers become. The main areas of application are Kühlan and facilities for cooling and freezing Food in winding towers and facilities for loading dealing with foods like pasteurize and rough chern.

Chains are used to transport the conveyor belt the sides of the spiral ceiling. Because this drive device corresponds to the state of the art, it will no longer dealt with.

A generic spiral blanket is from US 5141 099 known. In this well-known spiral ceiling, the Stä be through openings in oval and generally round shape guided, which are molded into rigid bodies. Thereby the guidance of the rods in the spiral ceiling is guaranteed achieves, but it becomes disadvantageously a relatively heavy, elaborate and inelastic construction in purchase genom men.  

A conveyor belt cover is known from US 51 31 526, in the case of rods connected by approximately Y-shaped Ge elements is guided, with round holes in the gift leaden ends of the Y and an oval opening in the wrap tert executed end are attached. The Elements are still compared to the aforementioned prior art heavier and completely rigid.

A conveyor belt cover is known from US 28 55 091, where the rods go through flattened wire spirals be carried out from one end to the other continuously expand conically. So that can be done Conveyor belt disadvantageously only a predetermined radius go through and is thus on a certain circular path limited.

Spiral elements are also from practical operation known in the form of simple wire spirals that one have a slightly flattened cross-section.

The connection between two wire spirals is such that a rod is passed through its opening and the next rod parallel spaced by the same Opening, alternating with a circumferential loop of the spiral element with an adjacent spiral element is threaded so that a conveyor belt can be produced.

The advantage of this solution is the ability to negotiate curves, but with the disadvantage that the rods in the public tion of the spiral element are not performed and that therefore the spiral element can tilt in such a way that the flat side no longer points in the conveying direction but at an angle to what is causing impairments of the material to be conveyed.

It is the object of the present invention to provide a gat to develop the spiral ceiling according to the  maintains simple construction of the flat wire spiral and secure fixation of the individual spiral elements position guaranteed to each other.

The problem is solved with a generic Spiral cover with the characteristic feature of the patent claim 1.

Because the spiral element seen from the side an outline of a right that is on the longer side has corners with semicircular ends, am one end onto the round opening Implementation of a rod is used and where on the other end is parallel to the longer side of the Rectangular elongated hole is arranged through an adjacent staff alternates with one round eyelet of an adjacent spiral element leads, there is the advantageous effect that one rod each with a spiral element on one Side is positively connected, creating a firm Positioning is achieved and that on the other Move the elongated hole to the neighboring stick Exercise possibility granted in the direction of travel, whereby the Spiral ceiling and thus the conveyor belt turns.

It has proven to be beneficial for the execution that the length L of the elongated hole and the diameter D of the round eyelet in the ratio L: D of at least 3, the width B of the elongated hole being equal to the diameter D is.

It is understood that the diameter D of the round eyelet is a little larger than the diameter of the rod because with a rotation of the conveyor belt, e.g. B. in the field of Driving wheels is possible.  

To as large a range of displacement as possible separate spiral elements against each other when negotiating curves To achieve, it is appropriate that the zig zigzag spiral element between an upper top and bottom of an elongated hole in plan view each has an angle α of approximately 15 °.

To advantageously different widths of spiral ceilings he To be able to testify, it is provided that the spiral element a width B1 in the running direction of the conveyor belt and a Length L1 is transverse to the conveying direction and that L1: B1 be in a ratio of at least 4: 1.

On the one hand, this is a single spiral element easy to manufacture and store and on the other hand preselected widths of the conveyor belts through each other series of several spiral elements can be produced, whereby if necessary, a spiral element also shortened, d. H. can be cut off.

The spiral elements in the spiral ceiling are advantageous arranged with the round eyelet towards the running direction, see above that the rods pull the individual spiral elements and they do not move unintentionally. But it is under certain circumstances also possible, the running direction to reverse.

To ensure a secure location of the objects on the conveyor belt to achieve, it is conveniently provided that in the Spiral cover each a left-hand spiral element adjacent to a right-hand turn in the direction of travel Spiral element is arranged. It becomes an unintended Avoid wandering the objects.

But it is also possible to turn left only or only to put right-hand spiral elements together.  

The spiral element made of heat-resistant is advantageous Made of plastic. Because the plastic one has lower heat content than, for example Metal, is passed through ver different temperature zones an unfavorable influence avoided.

Another advantage is that the Ge is about 55% lower important compared to a metal version, which means drive saves energy and reduces wear.

For example, when transporting sausages on the Conveyor belt avoided by a smokehouse the pattern of the spiral elements on the sausages det.

For strength reasons, the rods are made of metallic Material, preferably steel, but they can also be made of heat-resistant plastic.

An advantageous embodiment of the invention will follow explained in more detail below with reference to a drawing.

It shows in

Fig. 1 shows a section of a plan view of a spiral ceiling and in

FIG. 2 is a view in the direction C of FIG. 1.

With reference to Fig. 1, a section of a left-hand spiral element 10 is shown, which is connected by a rod, whose center line S2 is shown, with a right-hand spiral element 10 '.

Each on the left jagged formations of the spiral element 10 and 10 'round eyelets 11 are inserted through which a rod is drawn, the center line S1 is shown.

The width of the spiral element in the running direction A is B1, the length transverse to the running direction A is L1.

In the spiral element 10 shown on the left, the first boundary of an elongated hole 12 (see FIG. 2) seen from below runs in the viewing plane below, then extends upwards to the right in an arc, the inner curvature having the diameter D, and then runs up in the viewing plane to the next round eyelet 11 , where the upper limit opens.

The elongated hole 12 , which is shown in Fig. 2, accordingly has an upper and a lower boundary edge, these boundary edges are not lying in one plane, but as shown in Fig. 1, at an angle α to each other.

In the spiral element 10 'on the right side of the drawing, the course of the upper and lower limitation edges of the elongated hole 12 is reversed in each case as in the left spiral element.

In both spiral elements 10 , 10 ', a round eyelet 11 is formed in each prong of the spiral elements on the left side in each case.

The round eyelets 11 each have an inner diameter D.

In Fig. 1 a section of a spiral ceiling is shown, which is in a straight movement in Rich direction of arrow A, the rods (center lines S1 and S2) parallel to each other. When the conveyor belt turns, the bars run at an angle to one another, for example the right spiral element 10 'being pushed into the left spiral element 10 by an amount. This movement is limited by the fact that the outer side of the round eyelet 11 of the right spiral element 10 'abuts against the inner side of the round eyelet 11 of the spiral element 10 .

In the drawing it is not shown that the outside edges of the spiral element are slightly rounded.

Claims (9)

1. Spiral cover for an endless conveyor belt, wherein a plurality of transverse to the direction A of the conveyor belt extending, in plan view zigzag spiral elements ( 10 , 10 ') by transverse to the direction A through the opening of each spiral element ( 10 , 10 ') performed rods are connected to each other, a chain being attached to each of the two sides of the spiral ceiling, with chain wheels serving to drive the conveyor belt being engageable with the chain, the spiral element ( 10 , 10 ') from the Viewed side has an outline of a rectangle lying on the longer side with semicircular ends, with a round opening for the passage of a rod being attached at one end and with an elongated hole ( 12 ) extending parallel to the longer side of the rectangle at the other end is characterized in that a round eyelet ( 11 ) is used in each case on the round openings st. 2. Spiral blanket according to claim 1, characterized in that an adjacent rod through an elongated hole ( 12 ) in alternation with an eyelet ( 11 ) of a neigh disclosed spiral element ( 10 , 10 ') is performed. 3. Spiral blanket according to claim 1 or 2, characterized in that the length L of the elongated hole ( 12 ) and the diameter D of the round eyelet ( 11 ) form a ratio L: D of at least 3, the width B of the elongated hole being equal to that Diameter D is. 4. Spiral cover according to one of the preceding claims, characterized in that the zig-zag ver spiral element ( 10 , 10 ') between an upper and lower edge of an elongated hole ( 12 ) in the plan view each have an angle α of about 15 ° points. 5. Spiral blanket according to one of the preceding claims, characterized in that the spiral element ( 10 , 10 ') has a width B1 in the running direction A of the conveyor belt and a length L1 transverse to the conveying direction and that L1: B1 approximately in the ratio at least 4 : 1 stand. 6. Spiral blanket according to one of the preceding claims, characterized in that the spiral elements ( 10 , 10 ') with the round eyelet ( 11 ) are arranged in the spiral direction A in the spiral blanket. 7. Spiral blanket according to one of the preceding Ansprü surface, characterized in that in the spiral blanket a left-hand spiral element ( 10 ) in the running direction adjacent to a right-hand spiral element ( 10 ') is arranged. 8. Spiral cover according to one of the preceding Ansprü surface, characterized in that the spiral element ( 10 , 10 ') is made of heat-resistant plastic. 9. Spiral cover according to one of the preceding claims che, characterized in that the rods made of me metallic material or heat-resistant art fabric are made.